Joint structure, joint module and method of assembling joint structure on object

ABSTRACT

The disclosure provides a joint structure, a joint module and a method of assembling a joint structure on an object. The joint structure includes a body part and an actuating piece. The actuating piece combines movably with the body part, the actuating piece has a first joint part, the first joint part is located outside of the body part, the first joint part can carry out a vertical movement, lateral movement or rotational movement. Accordingly, the body part of the disclosure can go with the actuating piece or the first joint part, and combine to the first object and the second object, or disengage from the first object and the second object for achieving the effect of combining or separating at least two objects.

CROSS-REFERENCE TO RELATED APPLICATION

This non-provisional application claims priority under 35 U.S.C. §119(a) on Patent Application No(s). 109136979 filed in Taiwan, R.O.C. onOct. 23, 2020 and Patent Application No(s). 110103873 filed in Taiwan,R.O.C. on Feb. 2, 2021, the entire contents of which are herebyincorporated by reference.

BACKGROUND OF THE INVENTION 1. Field of the Invention

The present disclosure relates to a joint structure, a joint module anda method of assembling a joint structure on an object, and in particularto a joint structure, a joint module and a method of assembling a jointstructure on an object which can achieve the effect of combining orseparating at least two objects.

2. Description of the Related Art

Generally, when at least two first objects are combined, they areusually locked with screws or fasteners as a combination of the firstobjects.

Although the above method can combine two first objects, they fail to bemoved or separated after the combination, so that the screws orfasteners cannot meet the requirement of practical applicationrelatively.

BRIEF SUMMARY OF THE INVENTION

In view of the shortcomings of the above-mentioned prior art, theinventor researched and developed a joint structure, a joint module anda method of assembling a joint structure on an object. It is expected tocombine to the first object and the second object, or disengage from thefirst object and the second object for achieving the effect of combiningor separating at least two objects.

To achieve the above objective and other objectives, the presentdisclosure provides a joint structure, comprising: a body part and anactuating piece. The actuating piece combines movably with the bodypart, the actuating piece has a first joint part, the first joint partis located outside of the body part, the first joint part can carry outa vertical movement, lateral movement or rotational movement.

The disclosure further provides a joint structure, comprising: a bodypart and an actuating piece. The actuating piece has a first joint partand a rod part, the rod part combines movably inside the body part, sothat the actuating piece combines movably with the body part, the firstjoint part is located outside of the body part, the first joint part cancarry out a vertical movement, lateral movement or rotational movement.

The disclosure further provides a joint structure, comprising: a bodypart and an actuating piece. The actuating piece has a first joint part,a rod part, a stop part and an elastic element, the rod part combinesmovably inside the body part, so that the actuating piece combinesmovably with the body part, the first joint part is located outside ofthe body part, one end of the elastic element abuts against the bodypart, and the other end of the elastic element abuts against the stoppart, the first joint part can carry out a vertical movement, lateralmovement or rotational movement.

The disclosure further provides a joint structure, comprising: a bodypart and an actuating piece. The actuating piece has a first joint part,a rod part and a second joint part, the rod part combines movably insidethe body part, so that the actuating piece combines movably with thebody part, the first joint part is located outside of the body part, thesecond joint part can carry out a vertical movement, lateral movement orrotational movement.

The disclosure further provides a joint structure, comprising: a bodypart and an actuating piece. The actuating piece has a first joint part,a rod part, an elastic element and a second joint part, the rod partcombines movably inside the body part, so that the actuating piececombines movably with the body part, the first joint part is locatedoutside of the body part, one end of the elastic element abuts againstthe body part, and the other end of the elastic element abuts againstthe second joint part, the second joint part can carry out a verticalmovement, lateral movement or rotational movement.

The disclosure further provides a joint structure, comprising: a bodypart and an actuating piece. The actuating piece combines movably withthe body part, the actuating piece has a second joint part, the secondjoint part is located inside or outside of the body part, the secondjoint part can carry out a vertical movement, lateral movement orrotational movement.

The disclosure further provides a joint structure, comprising: a bodypart and an actuating piece. The actuating piece has a second joint partand a rod part, the rod part combines movably inside the body part, sothat the actuating piece combines movably with the body part, the secondjoint part is located inside or outside of the body part, the secondjoint part can carry out a vertical movement, lateral movement orrotational movement.

The disclosure further provides a joint structure, comprising: a bodypart and an actuating piece. The actuating piece has a second jointpart, a rod part, a stop part and an elastic element, the rod partcombines movably inside the body part, so that the actuating piececombines movably with the body part, the second joint part is locatedinside or outside of the body part, one end of the elastic element abutsagainst the body part, and the other end of the elastic element abutsagainst the stop part, the second joint part can carry out a verticalmovement, lateral movement or rotational movement.

The disclosure further provides a method of assembling a jointstructure, which allows a part of the actuating piece to combine movablywith the body part, in order to make the first joint part of theactuating piece located outside of the body part, so that the firstjoint part can carry out a vertical movement, lateral movement orrotational movement.

The disclosure further provides a method of assembling a joint structureon an object, comprising the following steps: providing a pick-up toolto pick up the joint structure; using the pick-up tool to move the jointstructure to an assembly position of the object; allowing the jointstructure to fall to the assembly position of the object.

The disclosure further provides a method of assembling a joint structureon an object, comprising the following steps: providing a pick-up toolto pick up the joint structure; using the pick-up tool to move the jointstructure to an assembly position of the object; loosening or releasingthe joint structure from the pick-up tool to make the joint structureassemble to the assembly position of the object.

The disclosure further provides a method of assembling a joint structureon an object, comprising the following steps: providing a pick-up toolto pick up the joint structure; using the pick-up tool to move the jointstructure to an assembly position of the object; pressing down the jointstructure on the object by the pick-up tool, in order to place the jointstructure on the assembly position of the object.

The disclosure further provides a method of assembling a joint structureon an object, comprising the following steps: providing a pick-up toolto pick up the joint structure; using the pick-up tool to move the jointstructure to an assembly position of the object; and elasticallypressing down the joint structure on the object by the pick-up tool, inorder to place the joint structure on the assembly position of theobject.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, an elastic element is further comprised,one end of the elastic element abuts against the body part, and theother end of the elastic element abuts against the actuating piece inthe body part, or one end of the elastic element abuts against the bodypart, and the other end of the elastic element abuts against the rodpart in the body part, or one end of the elastic element abuts againstthe body part, and the other end of the elastic element abuts againstthe second joint part in the body part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the body part has an assembling part, theassembling part is used to assemble to the first object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the assembling part has an accommodatingpart, the body part is pressed by an external force and squeezed intothe first object, so that the material of the first object enters theaccommodating part, in order to carry out the assembly of the assemblingpart and the first object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the assembling part has an expansion part,so that the expansion part is pressed by an external force to bedeformed and expanded, and is assembled with the first object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the joint structure is picked up by apick-up tool, and placed at an assembly position of the first objectafter a distance or position is matched by a matching device.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, a surface of the body part has asolderable layer, the solderable layer of the body part is used to besoldered to a solderable layer of the first object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the body part has a solderable layer, thebody part is heated to be soldered to a solderable layer of the firstobject, and the first object is a PCB.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the solderable layer of the body part is atin or nickel layer, and has a copper layer in the tin or nickel layer.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the solderable layer of the first objectis a preset tin layer on the copper layer.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part or the second jointpart has a turning part, the turning part combines with the rod part bya bolt connection.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the turning part is turned to drive thefirst joint part turning, and make the rod part move up and down.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the lateral width and vertical width ofthe turning part is different, when it is turning, the rod part moveswith a different distance.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the lateral width and vertical width ofthe turning part is the same, when it is turning, the rod part moveswith the same distance.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, when the turning part is turned, thesecond joint part is driven to move.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part and the second jointpart may simultaneously carry out fastening and simultaneously carry outunfastening.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part and the second jointpart may carry out fastening respectively and carry out unfasteningrespectively.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the quantity of the first joint part isone, two or more.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part may pass through afastening into part of a first object and vertically fastened into asecond object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part may carry out avertical fastening, lateral fastening or rotational fastening.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the elastic element normally abuts againstthe body part and the actuating piece, so that the first joint part ofthe actuating piece, the stop part or the second joint part is normallypushed by the elastic force, and applies a reciprocating elastic forcedownwards.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part is a heat dissipatingelement, it can be moved upwards and then pressed downwards to a hotelectronic element, to assist in heat dissipation or to assist a stablesignal transmission of the hot electronic element.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, a heat dissipating element is placedbetween the actuating piece and the hot electronic element after thefirst joint part is moved upwards to assist in heat dissipation.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the heat dissipating element is a heatdissipating sheet, radiator, heat dissipating paste or heat dissipatingsolution.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part may be stacked with aheat dissipating element or a heat dissipating substance thereon.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part has a positionlimiting structure, which is used to limit the position of a heatdissipating element, a heat dissipating substance or a hot electronicelement.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, there is a floating limit part between theactuating piece and the body part, the floating limit part limits afloating amount of the body part to make the body part placed in anassembly position of the first object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the actuating piece has a passing part,the first joint part may be pressed downwards to make a heat dissipatingelement set in the passing part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the rod part of the actuating piece is anexpansion structure, riveting structure or locking structure, andcombined to a setting part of the actuating piece, or the actuatingpiece is integrally formed with the rod part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part is equipped with aheat dissipating element or a cooling device, or the first joint part isa heat dissipating element or a cooling device, the heat dissipatingelement or the cooling device is used to assist in cooling or heatdissipation of an electronic element.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the actuating piece is a turning body, sothat the actuating piece is turned to lift the bolted rod part, and thenconnected to a third object, and the actuating piece is presseddownwards to join to a heat dissipating element or a hot electronicelement.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the actuating piece has an assemblingpart, the assembling part is assembled to an assembling part of thethird object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the joint structure is assembled to aretaining body to make the first joint part fastened into an object, sothat a position of the object is limited to the retaining body, or thefirst joint part is moved upwards to disengage from the object, so thatthe body is disengaged from the retaining body.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the body part has an anti-rotation part,the actuating piece has a corresponding anti-rotation part, theanti-rotation part and the corresponding anti-rotation part areanti-rotational mutually, and the corresponding anti-rotation part canbe disengaged from the anti-rotation part, the actuating piece is turnedto a bearing part of the body part to make the actuating piece stay ortemporarily stay at the bearing part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the body part has an anti-rotation part,the actuating piece has a corresponding anti-rotation part, theanti-rotation part and the corresponding anti-rotation part areanti-rotational mutually, and the corresponding anti-rotation part canbe lifted upwards to disengage from the anti-rotation part, theactuating piece is turned to a bearing part of the body part to make theactuating piece stay or temporarily stay at the bearing part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the anti-rotation part is a cut side,split side, split groove, cut groove, concave part, convex part or steppart.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match an assembly position or an assembly distanceof the joint structure to the object; the pick-up tool is used toassemble the joint structure to the assembly position of the objectaccording to matching information of the matching device.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match a position or distance of the jointstructure to a solderable layer on an assembly position of the object;the pick-up tool is used to move the joint structure to the solderablelayer of the object according to matching information of the matchingdevice to make the joint structure assemble to the solderable layer ofthe object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match an assembly position or an assembly distanceof the joint structure to the object; the pick-up tool is used to movethe joint structure to a preset height over the assembly position of theobject according to matching information of the matching device; thejoint structure is loosened or released from the pick-up tool to makethe joint structure assemble to the assembly position of the object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match a position or distance of the jointstructure to a solderable layer on an assembly position of the object;the pick-up tool is used to move the joint structure to a preset heightover the solderable layer of the object according to matchinginformation of the matching device; the joint structure is loosened orreleased from the pick-up tool to make the joint structure assemble tothe solderable layer of the object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part or the second jointpart is a column, rod body, fastening body, thread body, protrusionfastening body, inner fastening body or elastically fastening body.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part has a fastening part,and the fastening part is combined fixedly with the first joint part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the fastening part is made of metallicmaterial or plastic material, the first joint part is made of plasticmaterial or metallic material.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part is made of plasticmaterial or metallic material.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match an assembly position or an assembly distanceof the joint structure to the object; the pick-up tool is used toassemble the joint structure to the assembly position of the objectaccording to matching information of the matching device; and pressingdown the joint structure on the object by the pick-up tool, in order toplace the joint structure on the assembly position of the object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match a position or distance of the jointstructure to a solderable layer on an assembly position of the object;the pick-up tool is used to move the joint structure to the solderablelayer of the object according to matching information of the matchingdevice; and pressing down the joint structure on the object by thepick-up tool, in order to place the joint structure on the assemblyposition of the object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match an assembly position or an assembly distanceof the joint structure to the object; the pick-up tool is used toassemble the joint structure to the assembly position of the objectaccording to matching information of the matching device; andelastically pressing down the joint structure on the object by thepick-up tool, in order to place the joint structure on the assemblyposition of the object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the following steps are further comprised:after the joint structure is picked up by the pick-up tool, a matchingdevice is provided to match a position or distance of the jointstructure to a solderable layer on an assembly position of the object;the pick-up tool is used to move the joint structure to the solderablelayer of the object according to matching information of the matchingdevice; and elastically pressing down the joint structure on the objectby the pick-up tool, in order to place the joint structure on theassembly position of the object.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the actuating piece has a pressed part,the pressed part combines with the rod part, the pressed part combinesmovably the rod part, or the pressed part is integrally formed with therod part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the pressed part is combined with the rodpart by a riveted connection.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the pressed part is combined with the rodpart by an expansion connection.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, a method of assembling the pressed part isthat the pressed part is first combined with the first joint part formedby plastic injection molding in a mold, and then combined with the rodpart by a riveted connection or an expansion connection.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, a method of assembling the pressed part isthat the first joint part or the second joint part is first formed byplastic injection molding in a mold, and then the position of the firstjoint part or the second joint part is limited between the pressed partand the body part, and combined with the rod part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part or the second jointpart is injected or plastic injected out of the mold, allowing theliquid material or liquid plastic material to enter the mold from a flowchannel, after it is cooled down, the first joint part or the secondjoint part is formed.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the pressed part and the body part aremade of metallic material, used to bear an external force puttingpressure on the pressed part and the body part for combining with afirst object by a riveted connection or an expansion connection.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the pressed part is higher than thesurface of the first joint part, in order to make the pressed part firstbear the external force putting pressure when the external force is usedto put pressure.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part or the second jointpart has a fastening part, the fastening part is made of metallicmaterial, the first joint part or the second joint part is made ofplastic material, and the first joint part or the second joint part iscombined with the fastening part by plastic buried in the moldinjection, a riveting connection, expansion connection or snapconnection.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the first joint part or the second jointpart has a fastening part, the fastening part is made of metallicmaterial, the first joint part or the second joint part is in the mold,allowing the liquid plastic material to enter a chamber of the mold fromthe flow channel, after it is cooled down, the first joint part or thesecond joint part is combined with the fastening part.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the joint structure is assembled to aretaining body to make the first joint part or the second joint partfastened into an object, so that a position of the object is limited tothe retaining body, or the first joint part or the second joint part canbe moved upwards to disengage from the object, so that the object isdisengaged from the retaining body.

In the joint structure, a joint module and a method of assembling ajoint structure on an object, the joint structure is assembled to afirst object, or the body part is integrally formed with the firstobject, wherein the first object is a chassis, computer case, case body,motherboard, track, PCB, computer, memory, metallic piece or plasticpiece, or the joint structure is assembled to a retaining body to makethe first joint part or the second joint part fastened into an object,so that the position of the object is limited to the retaining body, orthe first joint part or the second joint part is moved upwards todisengage from the object, and thus the object is disengaged from theretaining body, wherein the retaining body is a chassis, computer case,case body, motherboard, track, PCB, computer, memory, metallic piece orplastic piece.

Accordingly, the joint structure, a joint module and a method ofassembling a joint structure on an object of the present disclosure canallow the body part of the disclosure to go with the actuating piece orthe first joint part, and combine to the first object and the secondobject, or disengage from the first object and the second object forachieving the purpose of combining or separating at least two objects.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic view of a joint structure according to the firstembodiment of the present disclosure.

FIG. 2 is a schematic view of state of use of the joint structureaccording to the first embodiment of the present disclosure.

FIG. 3 is a schematic view of state of use of the joint structureaccording to the second embodiment of the present disclosure.

FIG. 4 is a schematic view of state of use of the joint structureaccording to the third embodiment of the present disclosure.

FIG. 5 is a schematic view of state of use of the joint structureaccording to the fourth embodiment of the present disclosure.

FIG. 6 is a schematic view of state of use of the joint structureaccording to the fifth embodiment of the present disclosure.

FIG. 7 is a schematic view of state of use of the joint structureaccording to the sixth embodiment of the present disclosure.

FIG. 8 is a schematic view of state of use of the joint structureaccording to the seventh embodiment of the present disclosure.

FIG. 9 is a schematic view of state of use of the joint structureaccording to the eighth embodiment of the present disclosure.

FIG. 10 is a schematic outside view of state of use of the jointstructure according to the ninth embodiment of the present disclosure.

FIG. 11 is a schematic view of the joint structure according to thetenth embodiment of the present disclosure.

FIG. 12 is schematic view 1 of state of use of the joint structureaccording to the eleventh embodiment of the present disclosure.

FIG. 13 is a schematic view 2 of state of use of the joint structureaccording to the eleventh embodiment of the present disclosure.

FIG. 14 is a schematic view of state of use of the joint structureaccording to the twelfth embodiment of the present disclosure.

FIG. 15 is a schematic view of state of use of the joint structureaccording to the thirteenth embodiment of the present disclosure.

FIG. 16 is a schematic view of state of use of the joint structureaccording to the fourteenth embodiment of the present disclosure.

FIG. 17 is a schematic view of state of use of the joint structureaccording to the fifteenth embodiment of the present disclosure.

FIG. 18 is a schematic view of state of use of the joint structureaccording to the sixteenth embodiment of the present disclosure.

FIG. 19 is a schematic outside view of the joint structure according tothe seventeenth embodiment of the present disclosure.

FIG. 20 is a schematic view of state of use of the joint structureaccording to the seventeenth embodiment of the present disclosure.

FIG. 21 is a schematic view of state of use of the joint structureaccording to the eighteenth embodiment of the present disclosure.

FIG. 22 is a schematic view 1 of state of use of the joint structureaccording to the nineteenth embodiment of the present disclosure.

FIG. 23 is a schematic view 2 of state of use of the joint structureaccording to the nineteenth embodiment of the present disclosure.

FIG. 24 is a schematic view of state of use of the joint structureaccording to the twentieth embodiment of the present disclosure.

FIG. 25 is a schematic view of state of use of the joint structureaccording to the twenty-first embodiment of the present disclosure.

FIG. 26 is a schematic bottom view of state of use of the jointstructure according to the twenty-first embodiment of the presentdisclosure.

FIG. 27 is a schematic view of state of assembly of the joint structureof the present disclosure.

FIG. 28 is a schematic view 1 of the joint structure assembling to anobject of the present disclosure.

FIG. 29 is a schematic view 2 of the joint structure assembling to anobject of the present disclosure.

FIG. 30 is a schematic view of different type of the first joint partand the second joint part of the present disclosure.

FIG. 31 is a schematic view of state of assembly of the joint structureaccording to the twenty-second embodiment of the present disclosure.

FIG. 32 is a schematic view of state of assembly of the joint structureaccording to the twenty-third embodiment of the present disclosure.

FIG. 33 is a schematic view of state of assembly of the joint structureaccording to the twenty-fourth embodiment of the present disclosure.

FIG. 34 is a schematic view of state of assembly of the joint structureaccording to the twenty-fifth embodiment of the present disclosure.

FIG. 35 is a schematic view of state of assembly of the joint structureaccording to the twenty-sixth embodiment of the present disclosure.

FIG. 36 is a schematic view of state of assembly of the joint structureaccording to the twenty-seventh embodiment of the present disclosure.

DETAILED DESCRIPTION OF THE INVENTION

To facilitate understanding of the object, characteristics and effectsof this present disclosure, embodiments together with the attacheddrawings for the detailed description of the present disclosure areprovided.

Referring to FIG. 1 and FIG. 2, as shown in the drawings, the disclosureprovides a joint structure, a joint module and a method of assembling ajoint structure on an object, and the joint structure 1 comprises a bodypart 11 and an actuating piece 12.

The actuating piece 12 combines movably with the body part 11, theactuating piece 12 has a first joint part 121, the first joint part 121is located outside of the body part 11, the first joint part 121 cancarry out a vertical movement, lateral movement or rotational movement.

In an embodiment of the joint structure 1 of the present disclosure, theactuating piece 12 may further comprise a rod part 122, the rod part 122combines movably inside the body part 11, so that the actuating piece 12combines movably with the body part 11.

In an embodiment of the joint structure 1 of the present disclosure, theactuating piece 12 may further comprise a stop part 123 and an elasticelement 124, one end of the elastic element 124 abuts against the bodypart 11, and the other end of the elastic element 124 abuts against thestop part 123; wherein the elastic element 124 normally abuts againstthe body part 11 and the stop part 123 of the actuating piece 12, sothat the first joint part 121 of the actuating piece 12 and the stoppart 123 are normally pushed by the elastic force, and applies areciprocating elastic force downwards.

The disclosure further provides a method of assembling the jointstructure, and when the joint structure 1 of the present disclosure isassembled, a part of the actuating piece (e.g., the rod part 122 and thestop 123) may be combined movably with the body part 11, so that thefirst joint part 121 of the actuating piece 12 is located outside of thebody part 11, and thus the first joint part 121 can carry out a verticalmovement, lateral movement or rotational movement.

In an embodiment of the disclosure, the body part 11 has an assemblingpart 111, the assembling part 111 has an accommodating part 112, thebody part 11 is pressed by an external force and squeezed into a firstobject 10, so that the material of the first object 10 enters theaccommodating part 112, in order to carry out the assembly of theassembling part 111 and the first object 10.

When the joint structure is used, the actuating piece 12 can be pulledto make the actuating piece 12 move upwards and compress the elasticelement 124, after a second object 20 that is to be fastened is set, theactuating piece 12 can be released, so that the actuating piece 12 movesdownwards due to the release of the elastic force of the elastic element124, thus allowing the first joint part 121 to pass through thefastening into part 101 of the first object 10 and vertically fastenedinto the second object 20. When the second object 20 is to be separated,the actuating piece 12 can be pulled to make the actuating piece 12 moveupwards and compress the elastic element 124, thus allowing the firstjoint part 121 to disengage from the second object 20 (or leave thefastening into part 101 at the same time) to separate the second object20. Accordingly, the joint structure 1 may be combined with the firstobject 10 and the second object 20, in order to complete the purpose ofcombination or separation of at least two objects.

Referring to FIG. 3, as shown in the drawing, the embodiment isdifferent from the above embodiment in that the quantity of the firstjoint part 121 may be one, two or more, and the number of the firstjoint part in the embodiment is two.

In an embodiment of the disclosure, the assembling part 111 has anexpansion part 113, so that the expansion part 113 is pressed by anexternal force to be deformed and expanded, and is assembled with thefirst object 10.

When the joint structure is used, the actuating piece 12 can be pulledto make the actuating piece 12 move upwards and compress the elasticelement 124, after a second object 20 that is to be fastened is set, theactuating piece 12 can be released, so that the actuating piece 12 movesdownwards due to the release of the elastic force of the elastic element124, thus allowing the first joint parts 121 to pass through thefastening into part 101 of the first object 10 and vertically fastenedinto the second object 20. When the second object 20 is to be separated,the actuating piece 12 can be pulled to make the actuating piece 12 moveupwards and compress the elastic element 124, thus allowing the firstjoint parts 121 to disengage from the second object 20 (or leave thefastening into part 101 at the same time) to separate the second object20. Accordingly, the joint structure 1 may be combined with the firstobject 10 and the second object 20, in order to complete the purpose ofcombination or separation of at least two objects.

Referring to FIG. 4 and FIG. 5, as shown in the drawings, the embodimentis different from the above embodiment in that when the joint structureis used, the actuating piece 12 can be pulled and then turned to makethe actuating piece 12 move upwards and compress the elastic element124, after a second object 20 that is to be fastened is set, theactuating piece 12 can be released, so that the actuating piece 12 movesdownwards due to the release of the elastic force of the elastic element124, thus allowing the first joint part 121 (or the first joint parts121) to pass through the fastening into part 101 of the first object 10and vertically fastened into the second object 20 to make the firstjoint part 121 (or the first joint parts 121) carry out lateralfastening or rotational fastening. When the second object 20 is to beseparated, the actuating piece 12 can be pulled and then turned to makethe actuating piece 12 move upwards and compress the elastic element124, thus allowing the first joint part 121 (or the first joint parts121) to disengage from the second object 20 (or leave the fastening intopart 101 at the same time) to separate the second object 20.Accordingly, the joint structure 1 may be combined with the first object10 and the second object 20, in order to complete the purpose ofcombination or separation of at least two objects.

Referring to FIG. 6, as shown in the drawing, the embodiment isdifferent from the above embodiment in that the first joint part 121 hasa turning part 125, the turning part 125 combines with the rod part 122by a bolt connection, the turning part 125 is turned to drive the firstjoint part 121 turning, and make the rod part 122 move up and down,wherein the lateral width and vertical width of the turning part 125 isdifferent or the same, when it is turning, the rod part 122 moves with adifferent or the same distance; the actuating piece 12 carries out abolt connection with the rod part 122 by a bolting part 127.

When the joint structure is used, the turning part 125 of the actuatingpiece 12 can be turned, the turning part 125 is turned to drive thefirst joint part 121 turning to make the rod part 122 move upwards andcompress the elastic element 124, after a second object 20 that is to befastened is set, the turning part 125 may be turned again, so that theactuating piece 12 moves downwards due to the release of the elasticforce of the elastic element 124, thus allowing the first joint part 121to pass through the fastening into part 101 of the first object 10 andvertically fastened into the second object 20. When the second object 20is to be separated, the turning part 125 may be turned to make theactuating piece 12 move upwards and compress the elastic element 124,thus allowing the first joint part 121 to disengage from the secondobject 20 (or leave the fastening into part 101 at the same time) toseparate the second object 20. Accordingly, the joint structure 1 may becombined with the first object 10 and the second object 20, in order tocomplete the purpose of combination or separation of at least twoobjects.

Referring to FIG. 7 and FIG. 8, as shown in the drawings, the embodimentis different from the above embodiment in that the actuating piece 12has a first joint part 121, a rod part 122 and a second joint part 126,the first joint part 121 has a turning part 125, the rod part 122combines movably inside the body part 11, so that the actuating piece 12combines movably with the body part 11, the first joint part 121 islocated outside of the body part 11, when the turning part 125 isturned, the second joint part 126 is driven to move, and thus the secondjoint part 126 can carry out a vertical movement, lateral movement orrotational movement.

In addition, the joint structure 1 of the disclosure may also set thefirst joint part 121 and the second joint part 126 simultaneouslyaccording to the requirement of the practical application, or only setthe second joint part 126 (not shown in the drawings), so that thepresent disclosure can further meet the requirement of practicalapplication.

In an embodiment of the joint structure 1 of the present disclosure, oneend of the elastic element 124 abuts against the body part 11, and theother end of the elastic element 124 abuts against the second joint part126 located in the body part 11; and the elastic element 124 normallyabuts against the body part 11 and the second joint part 126 of theactuating piece 12, so that the first joint part 121 of the actuatingpiece 12 and the second joint part 126 are normally pushed by theelastic force, and applies a reciprocating elastic force downwards.

When the joint structure is used, the turning part 125 of the actuatingpiece 12 can be turned, the turning part 125 is turned to drive thefirst joint part 121 turning to make the rod part 122 and the secondjoint part 126 move upwards and compress the elastic element 124, aftera second object 20 that is to be fastened is set, the turning part 125may be turned again, so that the actuating piece 12 moves downwards dueto the release of the elastic force of the elastic element 124, thusallowing the second joint part 126 to pass through the fastening intopart 101 of the first object 10 and vertically fastened into the secondobject 20. When the second object 20 is to be separated, the turningpart 125 may be turned to make the actuating piece 12 move upwards andcompress the elastic element 124, thus allowing the second joint part126 to disengage from the second object 20 (or leave the fastening intopart 101 at the same time) to separate the second object 20.Accordingly, the joint structure 1 may be combined with the first object10 and the second object 20, in order to complete the purpose ofcombination or separation of at least two objects.

Referring to FIG. 9 and FIG. 10, as shown in the drawings, theembodiment is different from the above embodiment in that the firstjoint part 121 of the joint structure 1 and the second joint part 126may simultaneously carry out fastening and simultaneously carry outunfastening, so that the first joint part 121 is fastened in andunfastened from the third object 30, and the second joint part 126 isfastened in and unfastened from the second object 20. In addition, thefirst joint part 121 and the second joint part 126 may carry outfastening respectively and carry out unfastening respectively (not shownin the drawings). Accordingly, the joint structure 1 may be combinedwith the first object 10, the second object 20 and the third object 30to carry out fastening or unfastening, in order to complete the purposeof combination or separation of at least two objects.

Referring to FIG. 11, as shown in the drawing, the embodiment isdifferent from the above embodiment in that the actuating piece 12carries out a bolt connection with the rod part 122 by a bolting part127, and one end of the elastic element 124 abuts against the body part11, and the other end of the elastic element 124 abuts against the stoppart 123, so that the first joint part 121 of the joint structure 1 andthe second joint part 126 may simultaneously carry out fastening andsimultaneously carry out unfastening. Accordingly, the purpose ofcombination or separation of at least two objects can be completed.

Referring to FIG. 12 and FIG. 13, as shown in the drawings, theembodiment is different from the above embodiment in that the actuatingpiece 12 carries out a bolt connection with the rod part 122 by abolting part 127, and one end of the elastic element 124 abuts againstthe body part 11, and the other end of the elastic element 124 abutsagainst the actuating piece 12.

When the joint structure is used, the actuating piece 12 can be presseddownwards to make the actuating piece 12 move upwards and compress theelastic element 124, after a second object 20 that is to be fastened isset, the actuating piece 12 can be released, so that the actuating piece12 moves downwards due to the release of the elastic force of theelastic element 124, thus allowing the second joint part 126 to passthrough the fastening into part 101 of the first object 10 andvertically fastened into the second object 20. When the second object 20is to be separated, the actuating piece 12 can be pressed downwards tomake the actuating piece 12 move upwards and compress the elasticelement 124, thus allowing the second joint part 126 to disengage fromthe second object 20 (or leave the fastening into part 101 at the sametime) to separate the second object 20. Accordingly, the joint structure1 may be combined with the first object 10 and the second object 20, inorder to complete the purpose of combination or separation of at leasttwo objects.

Referring to FIG. 14, as shown in the drawing, the embodiment isdifferent from the above embodiment in that the first joint part 121 isa heat dissipating element or a cooling device, the heat dissipatingelement is a heat dissipating sheet, radiator, heat dissipating paste orheat dissipating solution, it can be moved upwards and then presseddownwards to a hot electronic element 40, to assist in heat dissipationor to assist a stable signal transmission of the hot electronic element40.

Referring to FIG. 15, as shown in the drawing, the embodiment isdifferent from the above embodiment in that the first joint part 121 maybe stacked with a heat dissipating element 41 or a heat dissipatingsubstance thereon to assist in heat dissipation or to assist a stablesignal transmission of the hot electronic element 40.

Referring to FIG. 16, as shown in the drawing, the embodiment isdifferent from the above embodiment in that a heat dissipating element41 is placed between the actuating piece 12 and the hot electronicelement 40 after the first joint part 121 is moved upwards to assist inheat dissipation or to assist a stable signal transmission of the hotelectronic element 40.

Referring to FIG. 17 and FIG. 18, as shown in the drawings, theembodiment is different from the above embodiment in that the firstjoint part 121 has a position limiting structure 1211 (as shown in FIG.17), which is used to limit the position of a heat dissipating element41, a heat dissipating substance or a hot electronic element 40. Asshown in FIG. 17, the position limiting structure 1211 is used to limitthe hot electronic element 40; as shown in FIG. 18, the positionlimiting structure 1211 is used to limit the heat dissipating element41, so that the present disclosure can further meet the requirement ofpractical application of heat dissipation.

Referring to FIG. 19 and FIG. 20, as shown in the drawings, theembodiment is different from the above embodiment in that the actuatingpiece 12 has a passing part 1212, the first joint part 121 may bepressed downwards to make the heat dissipating element 41 set in thepassing part 1212, so that the present disclosure can further meet therequirement of practical application of heat dissipation.

In an embodiment of the disclosure, the rod part 122 of the actuatingpiece 12 is an expansion structure, riveting structure or lockingstructure, and now take the expansion structure as an embodiment, therod part 122 can be combined to an setting part 1213 of the actuatingpiece, in addition, the actuating piece 12 can also be integrally formedwith the rod part 122 (not shown in the drawings), so that the presentdisclosure can further meet the requirement of practical application.

Referring to FIG. 21, as shown in the drawing, the embodiment isdifferent from the above embodiment in that there is a floating limitpart 1214 between the actuating piece 12 and the body part 11, thefloating limit part 1214 limits a floating amount of the body part 11,and then the joint structure 1 is picked up by a pick-up tool 60 to makethe body part 11 firmly placed in an assembly position of the firstobject 10, so that the present disclosure can further meet therequirement of practical application.

Referring to FIG. 22 and FIG. 23, as shown in the drawings, theembodiment is different from the above embodiment in that the actuatingpiece 12 is a turning body, so that the actuating piece 12 is turned tolift the bolted rod part 122, and then connected to a third object 30,and the actuating piece is pressed downwards to join to the heatdissipating element 41 or the hot electronic element 40. As shown inFIG. 22, the actuating piece 12 is pressed downwards to join to the heatdissipating element 41 and the hot electronic element 40; as shown inFIG. 23, the actuating piece 12 is pressed downwards to join to the hotelectronic element 40, so that the present disclosure can further meetthe requirement of practical application of heat dissipation.

In an embodiment of the present disclosure, the actuating piece 12 hasan assembling part 1215, the assembling part 1215 is assembled to anassembling part 301 of the third object 30 to make the actuating piece12 pressed downwards and firmly joined to the heat dissipating element41 or the hot electronic element 40, so that the present disclosure canfurther meet the requirement of practical application of heatdissipation.

Referring to FIG. 24, as shown in the drawing, the embodiment isdifferent from the above embodiment in that the joint structure 1 isassembled to a retaining body 50 to make the first joint part 121fastened into an object 51, so that a position of the object 51 islimited to the retaining body 50, and the first joint part 121 can bemoved upwards to disengage from the object 51, and thus the object 51can be disengaged from the retaining body 50, so that the presentdisclosure can further meet the requirement of practical application ofheat dissipation.

In an embodiment of the disclosure, the joint structure 1 is assembledto the object 51 or a first object, or the body part 11 is integrallyformed with the object 51 or the first object, the first object is achassis, computer case, case body, motherboard, track, PCB, computer,memory, metallic piece or plastic piece, or the joint structure 1 isassembled to a retaining body 50 to make the first joint part 121 (orthe second joint part 126) fastened into an object, so that the positionof the object 51 is limited to the retaining body 50, or the first jointpart 121 (or the second joint part 126) can be moved upwards todisengage from the object, and thus the object can be disengaged fromthe retaining body 50, wherein the retaining body 50 is a chassis,computer case, case body, motherboard, track, PCB, computer, memory,metallic piece or plastic piece, or the object 51 is a chassis, computercase, case body, motherboard, track, PCB, computer, memory, metallicpiece or plastic piece.

Referring to FIG. 25 and FIG. 26, as shown in the drawings, theembodiment is different from the above embodiment in that the body part11 has an anti-rotation part 114, the actuating piece 12 has acorresponding anti-rotation part 128, the anti-rotation part 114 and thecorresponding anti-rotation part 128 are anti-rotational mutually, andthe corresponding anti-rotation part 128 can be lifted upwards todisengage from the anti-rotation part 114, the actuating piece 12 isturned to a bearing part 115 of the body part 11 to make the actuatingpiece 12 stay or temporarily stay at the bearing part 115, so that thepresent disclosure can further meet the requirement of practicalapplication of heat dissipation.

In an embodiment of the disclosure, the anti-rotation part 114 is a cutside, split side, split groove, cut groove, concave part, convex part orstep part that corresponds to the corresponding anti-rotation part 128,so that the present disclosure can further meet the requirement ofpractical application.

Referring to FIG. 27, as shown in the drawing, the disclosure provides amethod of assembling a joint structure on an object, and when assembled,the joint structure 1 is picked up from a carrier 80 by a pick-up tool60, and placed at an assembly position of the first object 10 after adistance or position is matched by a matching device 70; after the jointstructure 1 is picked up by the pick-up tool 60, the joint structure 1may be loosened or released at a preset height a to make the jointstructure 1 fall to the assembly position of the first object 10, inorder to carry out the assembly of the joint structure 1 and the firstobject 10.

In an embodiment of the disclosure, a surface of the body part 11 has asolderable layer 116, the solderable layer 116 of the body part 11 isheated to be soldered to a solderable layer 102 of the first object 10,in order to carry out the assembly of the joint structure 1 and thefirst object 10, wherein the first object 10 is a PCB, so that thepresent disclosure can further meet the requirement of practicalapplication.

In an embodiment of the disclosure, the solderable layer 116 of the bodypart 11 may be a tin or nickel layer, and has a copper layer in the tinor nickel layer. In addition, the solderable layer 102 of the firstobject 10 is a preset tin layer on the copper layer that is heated to besoldered to carry out the assembly of the joint structure 1 and thefirst object 10, so that the present disclosure can further meet therequirement of practical application.

Referring to FIG. 28, as shown in the drawing, the disclosure furtherprovides a method of assembling a joint structure on an object,comprising the following steps:

providing a pick-up tool 60 to pick up the joint structure 1 (may pickup from the position of the actuating piece 12);

using the pick-up tool 60 to move the joint structure 1 to a presetheight a over an assembly position of the first object 10, and locatinga part of an assembling part 111 of the joint structure 1 in an assemblyhole of the first object 10;

loosening or releasing the joint structure 1 from the pick-up tool 60 tomake the joint structure 1 fall to the assembly position of the firstobject 10. Accordingly, the disclosure can combine the joint structure 1to the first object 10.

In an embodiment of the disclosure, after the joint structure 1 ispicked up by the pick-up tool 60, a matching device 70 is provided tomatch an assembly position or an assembly distance of the jointstructure 1 to the first object 10; the pick-up tool 60 is used to movethe joint structure 1 to a preset height a over the assembly position ofthe first object 10 according to matching information of the matchingdevice 70; the joint structure 1 is loosened or released from thepick-up tool 60 to make the joint structure 1 fall to the assemblyposition of the first object 10. Accordingly, the disclosure can combinethe joint structure 1 to the first object 10.

In an embodiment of the disclosure, after the joint structure 1 ispicked up by the pick-up tool 60, a matching device 70 is provided tomatch a position or distance of the joint structure 1 to a solderablelayer 102 on an assembly position of the first object 10; the pick-uptool 60 is used to move the joint structure 1 to a preset height a overthe solderable layer 102 of the first object 10 according to matchinginformation of the matching device 70; the joint structure 1 is loosenedor released from the pick-up tool 60 to make the joint structure 1 fallto the solderable layer 102 of the first object 10, so that the bodypart 11 combines with the solderable layer 102 of the first object 10 bysoldering. Accordingly, the disclosure can combine the joint structure 1to the first object 10.

In addition, after the joint structure 1 is picked up by the pick-uptool 60, a matching device 70 is provided to match an assembly positionor an assembly distance of the joint structure 1 to the first object 10;the pick-up tool 60 is used to move the joint structure 1 to theassembly position of the first object 10 according to matchinginformation of the matching device 70; the joint structure 1 is loosenedor released from the pick-up tool 60 to make the joint structure 1assemble to the assembly position of the first object 10. Alternatively,after the joint structure 1 is picked up by the pick-up tool 60, amatching device 70 is provided to match a position or distance of thejoint structure to a solderable layer 102 on an assembly position of thefirst object 10; the pick-up tool 60 is used to move the joint structure1 to the solderable layer 102 of the first object 10 according tomatching information of the matching device 70; the joint structure 1 isloosened or released from the pick-up tool 60 to make the jointstructure 1 assemble to the solderable layer 102 of the first object 10,so that the present disclosure can further meet the requirement ofpractical assembly.

Moreover, in an embodiment of the disclosure, the joint structure 1 mayalso be picked by the pick-up tool 60 to make the pick-up tool 60 movethe joint structure 1 to an assembly position of the first object 10, sothat the joint structure 1 assembles to the assembly position of thefirst object 10, or the joint structure 1 is loosened or released fromthe pick-up tool 60 to make the joint structure 1 assemble to theassembly position of the first object 10; also, when assembled, afterthe joint structure 1 is picked up by a pick-up tool 60, a matchingdevice 70 is provided to match an assembly position or an assemblydistance of the joint structure 1 to the first object 10; the pick-uptool 60 is used to assemble the joint structure 1 to the assemblyposition of the first object 10 according to matching information of thematching device 70, or after the joint structure is picked up by thepick-up tool 60, a matching device 70 is provided to match a position ordistance of the joint structure to a solderable layer 102 on an assemblyposition of the first object 10; the pick-up tool 60 is used to move thejoint structure 1 to the solderable layer 102 of the first objectaccording to matching information of the matching device 70 to make thejoint structure 1 assemble to the solderable layer 102 of the firstobject 10 (not shown in the drawings), so that the present disclosurecan further meet the requirement of practical assembly.

Referring to FIG. 29, as shown in the drawing, the disclosure furtherprovides a method of assembling a joint structure on an object,comprising the following steps: providing a pick-up tool 60 to pick upthe joint structure 1; using the pick-up tool 60 to move the jointstructure 1 to an assembly position of the first object 10; pressingdown the joint structure 1 on the first object by the pick-up tool 60,in order to place the joint structure 1 on the assembly position of thefirst object 10; the way of pressing down of the aforementioned pick-uptool 60 may be elastically pressing down.

In an embodiment of the disclosure, a pick-up tool 60 can be provided topick up the joint structure 1; the pick-up tool 60 is used to move thejoint structure 1 to an assembly position of the first object 10; afterthe pick-up tool 60 senses a feedback message of the joint structure 1contacting with the first object 10, the fastener structure 1 isloosened or released from the pick-up tool 60 to make the jointstructure 1 placed on the assembly position of the first object 10.

The pick-up tool 60 has a sensor 61, and when the pick-up tool 60 movesthe joint structure 1 to the assembly position of the first object 10,the pick-up tool 60 can loosen or release the joint structure 1 afterthe sensor 61 of the pick-up tool 60 senses a feedback message of thejoint structure 1 contacting with the first object 10, so that the jointstructure 1 is placed on the assembly position of the first object 10,and may also go with the matching device 70 or the solderable layer 102as needed, for use in assembly with the first object 10 (not shown inthe drawings), and thus the present disclosure can further meet therequirement of practical assembly.

In an embodiment of the disclosure, when the joint structure 1 contactswith the first object 10, the joint structure 1 contacts with the firstobject 10 to form a state of electrical continuity, so that the sensor61 senses the electrical continuity and generates a feedback message,and the pick-up tool 60 can be driven to loosen or release the jointstructure 1 by the feedback message.

Referring to FIG. 30, as shown in the drawing, in an embodiment of thedisclosure, each the first joint part 121 and the second joint part 126is a column (shown as a portion of FIG. 30), rod body, fastening body,thread body (shown as b portion of FIG. 30), protrusion fastening body(shown as c portion of FIG. 30), inner fastening body (shown as dportion of FIG. 30) or elastically fastening body (shown as e portion ofFIG. 30). Accordingly, the disclosure can further meet the requirementof practical application.

Referring to FIGS. 31-34, as shown in the drawing, an embodiment of thedisclosure provides a joint module, which comprises the joint structure1 as described in each embodiment above, wherein the actuating piece 12has a pressed part 129, the pressed part 129 combines with the rod part122 (the pressed part 129 combines movably the rod part 122, or thepressed part 129 is integrally formed with the rod part 122).

In an embodiment of the disclosure, the pressed part 129 may be combinedwith the rod part 122 by a riveted connection (as shown in FIG. 31) oran expansion connection (as shown in FIG. 32).

In an embodiment of the disclosure, a method of assembling the pressedpart 129 is that the pressed part 129 is first combined with the firstjoint part 121 formed by plastic injection molding in a mold 90 (asshown in FIG. 32 and FIG. 33), and then combined with the rod part 122by a riveted connection or an expansion connection.

In an embodiment of the disclosure, a method of assembling the pressedpart 129 is that the first joint part 121 is first formed by injectionor plastic injection molding in a mold 90 (as shown in FIG. 31 and FIG.34), and then the position of the first joint part 121 (or the secondjoint part 126) is limited between the pressed part 129 and the bodypart 11, and combined with the rod part 122 by a riveted connection oran expansion connection.

In an embodiment of the disclosure, the first joint part 121 is injectedor plastic injected out of the mold 90, allowing the liquid material orliquid plastic material to enter the mold 90 from the flow channel 91,after it is cooled down, the first joint part 121 (or the second jointpart 126) is formed.

In an embodiment of the disclosure, the pressed part 129 and the bodypart 11 are made of metallic material, used to bear an external forceputting pressure on the pressed part 129 and the body part 11 forcombining with a first object 10 by a riveted connection or an expansionconnection, without crushing the first joint part 121 that is made ofplastic, so that the disclosure can further meet the requirement ofpractical application.

In an embodiment of the disclosure, the position of the pressed part 129is higher than the surface of the first joint part 121, in order to makethe pressed part 129 first bear the external force putting pressure whenthe external force is used to put pressure, instead of the first jointpart 121 made of plastic, in order to avoid crushing the first jointpart 121 made of plastic, so that the disclosure can further meet therequirement of practical application.

Referring to FIG. 35, as shown in the drawing, in an embodiment of thedisclosure, the first joint part 121 (or the second joint part 126) hasa fastening part 1216, the fastening part 1216 is made of metallicmaterial or plastic material, the first joint part 121 is made ofmetallic material or plastic material, and the fastening part 1216 iscombined fixedly with the first joint part 121, and the first joint part121 is combined with the fastening part 1216 by plastic buried in themold 90 injection, a riveting connection, expansion connection or snapconnection, so that the disclosure can further meet the requirement ofpractical application.

Referring to FIG. 36, as shown in the drawing, in an embodiment of thedisclosure, the first joint part 121 (or the second joint part 126) hasa fastening part 1216, the fastening part 1216 is made of metallicmaterial, the first joint part 121 is in the mold 90, allowing theliquid plastic material to enter a chamber of the mold from the flowchannel 91, after it is cooled down, the first joint part 121 iscombined with the fastening part 1216, so that the disclosure canfurther meet the requirement of practical application.

While the present disclosure has been described by means of specificembodiments, numerous modifications and variations could be made theretoby those skilled in the art without departing from the scope and spiritof the present disclosure set forth in the claims.

What is claimed is:
 1. A joint structure, comprising: a body part; andan actuating piece, combining movably with the body part, the actuatingpiece has a first joint part, the first joint part is located outside ofthe body part, the first joint part can carry out a vertical movement,lateral movement or rotational movement.
 2. A joint structure,comprising: a body part; and an actuating piece, having a first jointpart and a rod part, the rod part combines movably inside the body part,so that the actuating piece combines movably with the body part, thefirst joint part is located outside of the body part, the first jointpart can carry out a vertical movement, lateral movement or rotationalmovement.
 3. The joint structure according to claim 2, wherein theactuating piece has a stop part and an elastic element, one end of theelastic element abuts against the body part, and the other end of theelastic element abuts against the stop part.
 4. A joint structure,comprising: a body part; and an actuating piece, having a first jointpart, a rod part and a second joint part, the rod part combines movablyinside the body part, so that the actuating piece combines movably withthe body part, the first joint part is located outside of the body part,the second joint part can carry out a vertical movement, lateralmovement or rotational movement.
 5. The joint structure according toclaim 4, wherein the actuating piece has an elastic element, one end ofthe elastic element abuts against the body part, and the other end ofthe elastic element abuts against the second joint part.
 6. A jointstructure, comprising: a body part; and an actuating piece, combiningmovably with the body part, the actuating piece has a second joint part,the second joint part is located inside of the body part, the secondjoint part can carry out a vertical movement, lateral movement orrotational movement.
 7. A joint structure, comprising: a body part; andan actuating piece, having a second joint part and a rod part, the rodpart combines movably inside the body part, so that the actuating piececombines movably with the body part, the second joint part is locatedinside of the body part, the second joint part can carry out a verticalmovement, lateral movement or rotational movement.
 8. The jointstructure according to claim 7, wherein the actuating piece has a stoppart and an elastic element, one end of the elastic element abutsagainst the body part, and the other end of the elastic element abutsagainst the stop part.
 9. A joint module, comprising the joint structureof claim 1, wherein the actuating piece has a pressed part, the pressedpart combines with the rod part, the pressed part combines movably therod part, or the pressed part is integrally formed with the rod part.10. A joint module, comprising the joint structure of claim 2, whereinthe actuating piece has a pressed part, the pressed part combines withthe rod part, the pressed part combines movably the rod part, or thepressed part is integrally formed with the rod part.
 11. A joint module,comprising the joint structure of claim 4, wherein the actuating piecehas a pressed part, the pressed part combines with the rod part, thepressed part combines movably the rod part, or the pressed part isintegrally formed with the rod part.
 12. A joint module, comprising thejoint structure of claim 6, wherein the actuating piece has a pressedpart, the pressed part combines with the rod part, the pressed partcombines movably the rod part, or the pressed part is integrally formedwith the rod part.
 13. A joint module, comprising the joint structure ofclaim 7, wherein the actuating piece has a pressed part, the pressedpart combines with the rod part, the pressed part combines movably therod part, or the pressed part is integrally formed with the rod part.14. The joint module according to claim 9, wherein the pressed part andthe body part are made of metallic material, used to bear an externalforce putting pressure on the pressed part and the body part forcombining with a first object by a riveted connection or an expansionconnection.
 15. The joint module according to claim 10, wherein thepressed part and the body part are made of metallic material, used tobear an external force putting pressure on the pressed part and the bodypart for combining with a first object by a riveted connection or anexpansion connection.
 16. The joint module according to claim 11,wherein the pressed part and the body part are made of metallicmaterial, used to bear an external force putting pressure on the pressedpart and the body part for combining with a first object by a rivetedconnection or an expansion connection.
 17. The joint module according toclaim 12, wherein the pressed part and the body part are made ofmetallic material, used to bear an external force putting pressure onthe pressed part and the body part for combining with a first object bya riveted connection or an expansion connection.
 18. The joint moduleaccording to claim 13, wherein the pressed part and the body part aremade of metallic material, used to bear an external force puttingpressure on the pressed part and the body part for combining with afirst object by a riveted connection or an expansion connection.
 19. Thejoint module according to claim 9, wherein the pressed part is higherthan the surface of the first joint part, in order to make the pressedpart first bear the external force putting pressure when the externalforce is used to put pressure.
 20. The joint module according to claim10, wherein the pressed part is higher than the surface of the firstjoint part, in order to make the pressed part first bear the externalforce putting pressure when the external force is used to put pressure.21. The joint module according to claim 11, wherein the pressed part ishigher than the surface of the first joint part, in order to make thepressed part first bear the external force putting pressure when theexternal force is used to put pressure.
 22. The joint module accordingto claim 12, wherein the pressed part is higher than the surface of thefirst joint part, in order to make the pressed part first bear theexternal force putting pressure when the external force is used to putpressure.
 23. The joint module according to claim 13, wherein thepressed part is higher than the surface of the first joint part, inorder to make the pressed part first bear the external force puttingpressure when the external force is used to put pressure.
 24. The jointstructure according to claim 1, wherein the body part has ananti-rotation part, the actuating piece has a correspondinganti-rotation part, the anti-rotation part and the correspondinganti-rotation part are anti-rotational mutually, and the correspondinganti-rotation part can be disengaged from the anti-rotation part or canbe lifted upwards to disengage from the anti-rotation part, theactuating piece is turned to a bearing part of the body part to make theactuating piece stay or temporarily stay at the bearing part.
 25. Thejoint structure according to claim 2, wherein the body part has ananti-rotation part, the actuating piece has a correspondinganti-rotation part, the anti-rotation part and the correspondinganti-rotation part are anti-rotational mutually, and the correspondinganti-rotation part can be disengaged from the anti-rotation part or canbe lifted upwards to disengage from the anti-rotation part, theactuating piece is turned to a bearing part of the body part to make theactuating piece stay or temporarily stay at the bearing part.
 26. Thejoint structure according to claim 4, wherein the body part has ananti-rotation part, the actuating piece has a correspondinganti-rotation part, the anti-rotation part and the correspondinganti-rotation part are anti-rotational mutually, and the correspondinganti-rotation part can be disengaged from the anti-rotation part or canbe lifted upwards to disengage from the anti-rotation part, theactuating piece is turned to a bearing part of the body part to make theactuating piece stay or temporarily stay at the bearing part.
 27. Thejoint structure according to claim 6, wherein the body part has ananti-rotation part, the actuating piece has a correspondinganti-rotation part, the anti-rotation part and the correspondinganti-rotation part are anti-rotational mutually, and the correspondinganti-rotation part can be disengaged from the anti-rotation part or canbe lifted upwards to disengage from the anti-rotation part, theactuating piece is turned to a bearing part of the body part to make theactuating piece stay or temporarily stay at the bearing part.
 28. Thejoint structure according to claim 7, wherein the body part has ananti-rotation part, the actuating piece has a correspondinganti-rotation part, the anti-rotation part and the correspondinganti-rotation part are anti-rotational mutually, and the correspondinganti-rotation part can be disengaged from the anti-rotation part or canbe lifted upwards to disengage from the anti-rotation part, theactuating piece is turned to a bearing part of the body part to make theactuating piece stay or temporarily stay at the bearing part.
 29. Thejoint structure according to claim 1, wherein the joint structure isassembled to a retaining body to make the first joint part or the secondjoint part fastened into an object, so that a position of the object islimited to the retaining body, or the first joint part or the secondjoint part is moved upwards to disengage from the object, so that thebody is disengaged from the retaining body.
 30. The joint structureaccording to claim 2, wherein the joint structure is assembled to aretaining body to make the first joint part or the second joint partfastened into an object, so that a position of the object is limited tothe retaining body, or the first joint part or the second joint part ismoved upwards to disengage from the object, so that the body isdisengaged from the retaining body.
 31. The joint structure according toclaim 4, wherein the joint structure is assembled to a retaining body tomake the first joint part or the second joint part fastened into anobject, so that a position of the object is limited to the retainingbody, or the first joint part or the second joint part is moved upwardsto disengage from the object, so that the body is disengaged from theretaining body.
 32. The joint structure according to claim 6, whereinthe joint structure is assembled to a retaining body to make the firstjoint part or the second joint part fastened into an object, so that aposition of the object is limited to the retaining body, or the firstjoint part or the second joint part is moved upwards to disengage fromthe object, so that the body is disengaged from the retaining body. 33.The joint structure according to claim 7, wherein the joint structure isassembled to a retaining body to make the first joint part or the secondjoint part fastened into an object, so that a position of the object islimited to the retaining body, or the first joint part or the secondjoint part is moved upwards to disengage from the object, so that thebody is disengaged from the retaining body.
 34. The joint structureaccording to claim 1, wherein the joint structure is assembled to afirst object, or the body part is integrally formed with the firstobject, wherein the first object is a chassis, computer case, case body,motherboard, track, PCB, computer, memory, metallic piece or plasticpiece, or the joint structure is assembled to a retaining body to makethe first joint part or the second joint part fastened into an object,so that the position of the object is limited to the retaining body, orthe first joint part or the second joint part is moved upwards todisengage from the object, and thus the object is disengaged from theretaining body, wherein the retaining body is a chassis, computer case,case body, motherboard, track, PCB, computer, memory, metallic piece orplastic piece.
 35. The joint structure according to claim 2, wherein thejoint structure is assembled to a first object, or the body part isintegrally formed with the first object, wherein the first object is achassis, computer case, case body, motherboard, track, PCB, computer,memory, metallic piece or plastic piece, or the joint structure isassembled to a retaining body to make the first joint part or the secondjoint part fastened into an object, so that the position of the objectis limited to the retaining body, or the first joint part or the secondjoint part is moved upwards to disengage from the object, and thus theobject is disengaged from the retaining body, wherein the retaining bodyis a chassis, computer case, case body, motherboard, track, PCB,computer, memory, metallic piece or plastic piece.
 36. The jointstructure according to claim 4, wherein the joint structure is assembledto a first object, or the body part is integrally formed with the firstobject, wherein the first object is a chassis, computer case, case body,motherboard, track, PCB, computer, memory, metallic piece or plasticpiece, or the joint structure is assembled to a retaining body to makethe first joint part or the second joint part fastened into an object,so that the position of the object is limited to the retaining body, orthe first joint part or the second joint part is moved upwards todisengage from the object, and thus the object is disengaged from theretaining body, wherein the retaining body is a chassis, computer case,case body, motherboard, track, PCB, computer, memory, metallic piece orplastic piece.
 37. The joint structure according to claim 6, wherein thejoint structure is assembled to a first object, or the body part isintegrally formed with the first object, wherein the first object is achassis, computer case, case body, motherboard, track, PCB, computer,memory, metallic piece or plastic piece, or the joint structure isassembled to a retaining body to make the first joint part or the secondjoint part fastened into an object, so that the position of the objectis limited to the retaining body, or the first joint part or the secondjoint part is moved upwards to disengage from the object, and thus theobject is disengaged from the retaining body, wherein the retaining bodyis a chassis, computer case, case body, motherboard, track, PCB,computer, memory, metallic piece or plastic piece.
 38. The jointstructure according to claim 7, wherein the joint structure is assembledto a first object, or the body part is integrally formed with the firstobject, wherein the first object is a chassis, computer case, case body,motherboard, track, PCB, computer, memory, metallic piece or plasticpiece, or the joint structure is assembled to a retaining body to makethe first joint part or the second joint part fastened into an object,so that the position of the object is limited to the retaining body, orthe first joint part or the second joint part is moved upwards todisengage from the object, and thus the object is disengaged from theretaining body, wherein the retaining body is a chassis, computer case,case body, motherboard, track, PCB, computer, memory, metallic piece orplastic piece.